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ca4b602b2836ca49ee5f87956019a4073e00aec3
raddebugger/src/eval/eval_interpret.c
T
Ryan Fleury cf7b664ab2 bswap expression & ir
2024-08-27 11:35:45 -07:00

818 lines
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// Copyright (c) 2024 Epic Games Tools
// Licensed under the MIT license (https://opensource.org/license/mit/)
////////////////////////////////
//~ rjf: Context Selection Functions (Selection Required For All Subsequent APIs)
internal E_InterpretCtx *
e_selected_interpret_ctx(void)
{
return e_interpret_ctx;
}
internal void
e_select_interpret_ctx(E_InterpretCtx *ctx)
{
e_interpret_ctx = ctx;
}
////////////////////////////////
//~ rjf: Space Reading Helpers
internal B32
e_space_read(E_Space space, void *out, Rng1U64 range)
{
ProfBeginFunction();
B32 result = 0;
if(e_interpret_ctx->space_read != 0)
{
result = e_interpret_ctx->space_read(e_interpret_ctx->space_rw_user_data, space, out, range);
}
ProfEnd();
return result;
}
internal B32
e_space_write(E_Space space, void *in, Rng1U64 range)
{
ProfBeginFunction();
B32 result = 0;
if(e_interpret_ctx->space_write != 0)
{
result = e_interpret_ctx->space_write(e_interpret_ctx->space_rw_user_data, space, in, range);
}
ProfEnd();
return result;
}
////////////////////////////////
//~ rjf: Interpretation Functions
internal E_Interpretation
e_interpret(String8 bytecode)
{
E_Interpretation result = {0};
Temp scratch = scratch_begin(0, 0);
//- rjf: allocate stack & "registers"
U64 stack_cap = 128; // TODO(rjf): scan bytecode; determine maximum stack depth
E_Value *stack = push_array_no_zero(scratch.arena, E_Value, stack_cap);
U64 stack_count = 0;
E_Space selected_space = e_interpret_ctx->primary_space;
//- rjf: iterate bytecode & perform ops
U8 *ptr = bytecode.str;
U8 *opl = bytecode.str + bytecode.size;
for(;ptr < opl;)
{
// rjf: consume next opcode
RDI_EvalOp op = (RDI_EvalOp)*ptr;
U8 ctrlbits = 0;
if(op < RDI_EvalOp_COUNT)
{
ctrlbits = rdi_eval_op_ctrlbits_table[op];
}
else switch(op)
{
case E_IRExtKind_SetSpace:{ctrlbits = RDI_EVAL_CTRLBITS(16, 0, 0);}break;
default:
{
result.code = E_InterpretationCode_BadOp;
goto done;
}break;
}
ptr += 1;
// rjf: decode
E_Value imm = {0};
{
U32 decode_size = RDI_DECODEN_FROM_CTRLBITS(ctrlbits);
U8 *next_ptr = ptr + decode_size;
if(next_ptr > opl)
{
result.code = E_InterpretationCode_BadOp;
goto done;
}
// TODO(rjf): guarantee 8 bytes padding after the end of serialized
// bytecode; read 8 bytes and mask
MemoryCopy(&imm, ptr, decode_size);
ptr = next_ptr;
}
// rjf: pop
E_Value *svals = 0;
{
U32 pop_count = RDI_POPN_FROM_CTRLBITS(ctrlbits);
if(pop_count > stack_count)
{
result.code = E_InterpretationCode_BadOp;
goto done;
}
if(pop_count <= stack_count)
{
stack_count -= pop_count;
svals = stack + stack_count;
}
}
// rjf: interpret op, given decodes/pops
E_Value nval = {0};
switch(op)
{
case E_IRExtKind_SetSpace:
{
selected_space = imm.u128;
}break;
case RDI_EvalOp_Stop:
{
goto done;
}break;
case RDI_EvalOp_Noop:
{
// do nothing
}break;
case RDI_EvalOp_Cond:
if(svals[0].u64)
{
ptr += imm.u64;
}break;
case RDI_EvalOp_Skip:
{
ptr += imm.u64;
}break;
case RDI_EvalOp_MemRead:
{
U64 addr = svals[0].u64;
U64 size = imm.u64;
B32 good_read = e_space_read(selected_space, &nval, r1u64(addr, addr+size));
if(!good_read)
{
result.code = E_InterpretationCode_BadMemRead;
goto done;
}
}break;
case RDI_EvalOp_RegRead:
{
U8 rdi_reg_code = (imm.u64&0x0000FF)>>0;
U8 byte_size = (imm.u64&0x00FF00)>>8;
U8 byte_off = (imm.u64&0xFF0000)>>16;
REGS_RegCode base_reg_code = regs_reg_code_from_arch_rdi_code(e_interpret_ctx->reg_arch, rdi_reg_code);
REGS_Rng rng = regs_reg_code_rng_table_from_architecture(e_interpret_ctx->reg_arch)[base_reg_code];
U64 off = (U64)rng.byte_off + byte_off;
U64 size = (U64)byte_size;
B32 good_read = e_space_read(e_interpret_ctx->reg_space, &nval, r1u64(off, off+size));
if(!good_read)
{
result.code = E_InterpretationCode_BadRegRead;
goto done;
}
}break;
case RDI_EvalOp_RegReadDyn:
{
U64 off = svals[0].u64;
U64 size = bit_size_from_arch(e_interpret_ctx->reg_arch)/8;
B32 good_read = e_space_read(e_interpret_ctx->reg_space, &nval, r1u64(off, off+size));
if(!good_read)
{
result.code = E_InterpretationCode_BadRegRead;
goto done;
}
}break;
case RDI_EvalOp_FrameOff:
{
if(e_interpret_ctx->frame_base != 0)
{
nval.u64 = *e_interpret_ctx->frame_base + imm.u64;
}
else
{
result.code = E_InterpretationCode_BadFrameBase;
goto done;
}
}break;
case RDI_EvalOp_ModuleOff:
{
if(e_interpret_ctx->module_base != 0)
{
nval.u64 = *e_interpret_ctx->module_base + imm.u64;
}
else
{
result.code = E_InterpretationCode_BadModuleBase;
goto done;
}
}break;
case RDI_EvalOp_TLSOff:
{
if(e_interpret_ctx->tls_base != 0)
{
nval.u64 = *e_interpret_ctx->tls_base + imm.u64;
}
else
{
result.code = E_InterpretationCode_BadTLSBase;
goto done;
}
}break;
case RDI_EvalOp_ConstU8:
case RDI_EvalOp_ConstU16:
case RDI_EvalOp_ConstU32:
case RDI_EvalOp_ConstU64:
case RDI_EvalOp_ConstU128:
{
nval = imm;
}break;
case RDI_EvalOp_ConstString:
{
MemoryCopy(&nval, ptr, imm.u64);
ptr += imm.u64;
}break;
case RDI_EvalOp_Abs:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
nval.f32 = svals[0].f32;
if(svals[0].f32 < 0)
{
nval.f32 = -svals[0].f32;
}
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
nval.f64 = svals[0].f64;
if(svals[0].f64 < 0)
{
nval.f64 = -svals[0].f64;
}
}
else
{
nval.s64 = svals[0].s64;
if(svals[0].s64 < 0)
{
nval.s64 = -svals[0].s64;
}
}
}break;
case RDI_EvalOp_Neg:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
nval.f32 = -svals[0].f32;
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
nval.f64 = -svals[0].f64;
}
else
{
nval.u64 = (~svals[0].u64) + 1;
}
}break;
case RDI_EvalOp_Add:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
nval.f32 = svals[0].f32 + svals[1].f32;
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
nval.f64 = svals[0].f64 + svals[1].f64;
}
else
{
nval.u64 = svals[0].u64 + svals[1].u64;
}
}break;
case RDI_EvalOp_Sub:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
nval.f32 = svals[0].f32 - svals[1].f32;
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
nval.f64 = svals[0].f64 - svals[1].f64;
}
else
{
nval.u64 = svals[0].u64 - svals[1].u64;
}
}break;
case RDI_EvalOp_Mul:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
nval.f32 = svals[0].f32*svals[1].f32;
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
nval.f64 = svals[0].f64*svals[1].f64;
}
else
{
nval.u64 = svals[0].u64*svals[1].u64;
}
}break;
case RDI_EvalOp_Div:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
if(svals[1].f32 != 0.f)
{
nval.f32 = svals[0].f32/svals[1].f32;
}
else
{
result.code = E_InterpretationCode_DivideByZero;
goto done;
}
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
if(svals[1].f64 != 0.)
{
nval.f64 = svals[0].f64/svals[1].f64;
}
else
{
result.code = E_InterpretationCode_DivideByZero;
goto done;
}
}
else if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
if(svals[1].u64 != 0)
{
nval.u64 = svals[0].u64/svals[1].u64;
}
else
{
result.code = E_InterpretationCode_DivideByZero;
goto done;
}
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_Mod:
{
if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
if(svals[1].u64 != 0)
{
nval.u64 = svals[0].u64%svals[1].u64;
}
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_LShift:
{
if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = svals[0].u64 << svals[1].u64;
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_RShift:
{
if(imm.u64 == RDI_EvalTypeGroup_U)
{
nval.u64 = svals[0].u64 >> svals[1].u64;
}
else if(imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = svals[0].s64 >> svals[1].u64;
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_BitAnd:
{
if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = svals[0].u64&svals[1].u64;
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_BitOr:
{
if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = svals[0].u64|svals[1].u64;
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_BitXor:
{
if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = svals[0].u64^svals[1].u64;
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_BitNot:
{
if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = ~svals[0].u64;
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_LogAnd:
{
if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = (svals[0].u64 && svals[1].u64);
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_LogOr:
{
if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = (svals[0].u64 || svals[1].u64);
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_LogNot:
{
if(imm.u64 == RDI_EvalTypeGroup_U ||
imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = (!svals[0].u64);
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_EqEq:
{
B32 result = MemoryMatchArray(svals[0].u512, svals[1].u512);
nval.u64 = !!result;
}break;
case RDI_EvalOp_NtEq:
{
B32 result = MemoryMatchArray(svals[0].u512, svals[1].u512);
nval.u64 = !result;
}break;
case RDI_EvalOp_LsEq:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
nval.u64 = (svals[0].f32 <= svals[1].f32);
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
nval.u64 = (svals[0].f64 <= svals[1].f64);
}
else if(imm.u64 == RDI_EvalTypeGroup_U)
{
nval.u64 = (svals[0].u64 <= svals[1].u64);
}
else if(imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = (svals[0].s64 <= svals[1].s64);
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_GrEq:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
nval.u64 = (svals[0].f32 >= svals[1].f32);
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
nval.u64 = (svals[0].f64 >= svals[1].f64);
}
else if(imm.u64 == RDI_EvalTypeGroup_U)
{
nval.u64 = (svals[0].u64 >= svals[1].u64);
}
else if(imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = (svals[0].s64 >= svals[1].s64);
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_Less:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
nval.u64 = (svals[0].f32 < svals[1].f32);
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
nval.u64 = (svals[0].f64 < svals[1].f64);
}
else if(imm.u64 == RDI_EvalTypeGroup_U)
{
nval.u64 = (svals[0].u64 < svals[1].u64);
}
else if(imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = (svals[0].s64 < svals[1].s64);
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_Grtr:
{
if(imm.u64 == RDI_EvalTypeGroup_F32)
{
nval.u64 = (svals[0].f32 > svals[1].f32);
}
else if(imm.u64 == RDI_EvalTypeGroup_F64)
{
nval.u64 = (svals[0].f64 > svals[1].f64);
}
else if(imm.u64 == RDI_EvalTypeGroup_U)
{
nval.u64 = (svals[0].u64 > svals[1].u64);
}
else if(imm.u64 == RDI_EvalTypeGroup_S)
{
nval.u64 = (svals[0].s64 > svals[1].s64);
}
else
{
result.code = E_InterpretationCode_BadOpTypes;
goto done;
}
}break;
case RDI_EvalOp_Trunc:
{
if(0 < imm.u64)
{
U64 mask = 0;
if(imm.u64 < 64)
{
mask = max_U64 >> (64 - imm.u64);
}
nval.u64 = svals[0].u64&mask;
}
}break;
case RDI_EvalOp_TruncSigned:
{
if(0 < imm.u64)
{
U64 mask = 0;
if(imm.u64 < 64)
{
mask = max_U64 >> (64 - imm.u64);
}
U64 high = 0;
if(svals[0].u64 & (1 << (imm.u64 - 1)))
{
high = ~mask;
}
nval.u64 = high|(svals[0].u64&mask);
}
}break;
case RDI_EvalOp_Convert:
{
U32 in = imm.u64&0xFF;
U32 out = (imm.u64 >> 8)&0xFF;
if(in != out)
{
switch(in + out*RDI_EvalTypeGroup_COUNT)
{
case RDI_EvalTypeGroup_F32 + RDI_EvalTypeGroup_U*RDI_EvalTypeGroup_COUNT:
{
nval.u64 = (U64)svals[0].f32;
}break;
case RDI_EvalTypeGroup_F64 + RDI_EvalTypeGroup_U*RDI_EvalTypeGroup_COUNT:
{
nval.u64 = (U64)svals[0].f64;
}break;
case RDI_EvalTypeGroup_F32 + RDI_EvalTypeGroup_S*RDI_EvalTypeGroup_COUNT:
{
nval.s64 = (S64)svals[0].f32;
}break;
case RDI_EvalTypeGroup_F64 + RDI_EvalTypeGroup_S*RDI_EvalTypeGroup_COUNT:
{
nval.s64 = (S64)svals[0].f64;
}break;
case RDI_EvalTypeGroup_U + RDI_EvalTypeGroup_F32*RDI_EvalTypeGroup_COUNT:
{
nval.f32 = (F32)svals[0].u64;
}break;
case RDI_EvalTypeGroup_S + RDI_EvalTypeGroup_F32*RDI_EvalTypeGroup_COUNT:
{
nval.f32 = (F32)svals[0].s64;
}break;
case RDI_EvalTypeGroup_F64 + RDI_EvalTypeGroup_F32*RDI_EvalTypeGroup_COUNT:
{
nval.f32 = (F32)svals[0].f64;
}break;
case RDI_EvalTypeGroup_U + RDI_EvalTypeGroup_F64*RDI_EvalTypeGroup_COUNT:
{
nval.f64 = (F64)svals[0].u64;
}break;
case RDI_EvalTypeGroup_S + RDI_EvalTypeGroup_F64*RDI_EvalTypeGroup_COUNT:
{
nval.f64 = (F64)svals[0].s64;
}break;
case RDI_EvalTypeGroup_F32 + RDI_EvalTypeGroup_F64*RDI_EvalTypeGroup_COUNT:
{
nval.f64 = (F64)svals[0].f32;
}break;
}
}
}break;
case RDI_EvalOp_Pick:
{
if(stack_count > imm.u64)
{
nval = stack[stack_count - imm.u64 - 1];
}
else
{
result.code = E_InterpretationCode_BadOp;
goto done;
}
}break;
case RDI_EvalOp_Pop:
{
// do nothing - the pop is handled by the control bits
}break;
case RDI_EvalOp_Insert:
{
if(stack_count > imm.u64)
{
if(imm.u64 > 0)
{
E_Value tval = stack[stack_count - 1];
E_Value *dst = stack + stack_count - 1 - imm.u64;
E_Value *shift = dst + 1;
MemoryCopy(shift, dst, imm.u64*sizeof(E_Value));
*dst = tval;
}
}
else
{
result.code = E_InterpretationCode_BadOp;
goto done;
}
}break;
case RDI_EvalOp_ValueRead:
{
U64 bytes_to_read = imm.u64;
U64 offset = svals[0].u64;
if(offset + bytes_to_read <= sizeof(E_Value))
{
E_Value src_val = svals[1];
MemoryCopy(&nval.u512[0], (U8 *)(&src_val.u512[0]) + offset, bytes_to_read);
}
}break;
case RDI_EvalOp_ByteSwap:
{
U64 byte_size = imm.u64;
switch(byte_size)
{
default:
{
result.code = E_InterpretationCode_BadOp;
goto done;
}break;
case 2:{nval.u16 = bswap_u16(svals[0].u16);}break;
case 4:{nval.u32 = bswap_u32(svals[0].u32);}break;
case 8:{nval.u64 = bswap_u64(svals[0].u64);}break;
}
}break;
}
// rjf: push
{
U64 push_count = RDI_PUSHN_FROM_CTRLBITS(ctrlbits);
if(push_count == 1)
{
if(stack_count < stack_cap)
{
stack[stack_count] = nval;
stack_count += 1;
}
else
{
result.code = E_InterpretationCode_InsufficientStackSpace;
goto done;
}
}
}
}
done:;
if(stack_count >= 1)
{
result.value = stack[0];
}
scratch_end(scratch);
return result;
}
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